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Loading contentA spacecraft that matches a small body's orbit and stays with it for an extended study, rather than flying past. Rendezvous enables detailed mapping and, often, orbiting or landing.
Matching a target's orbit to accompany it, enabling prolonged study.
NASA's Near Earth Asteroid Rendezvous mission — the first spacecraft to orbit an asteroid (433 Eros) and, in an unplanned finale, the first to soft-land on one. It mapped Eros for a year before its controlled descent in 2001.
JAXA's pathfinding asteroid sample-return mission — the first spacecraft to land on an asteroid and return material to Earth. Despite a cascade of failures (reaction wheels, a fuel leak, an intermittent ion engine, and a lost lander), it recovered more than a thousand microscopic grains of the asteroid Itokawa.
ESA's landmark comet mission — the first to orbit a comet nucleus and, via its Philae lander, the first to soft-land on one. It escorted comet 67P/Churyumov–Gerasimenko through perihelion for two years before its own controlled descent to the surface in 2016.
A NASA Discovery mission and the first spacecraft to orbit two extraterrestrial bodies — it used ion propulsion to orbit the giant asteroid 4 Vesta and then the dwarf planet 1 Ceres, the two most massive bodies in the main asteroid belt.
JAXA's follow-up to Hayabusa — a far more capable mission to the carbonaceous asteroid Ryugu. It deployed rovers and a lander, fired a projectile to make an artificial crater and sample subsurface material, and returned 5.4 grams of pristine, water- and organic-bearing rock. The spacecraft is now on an extended mission to a small fast-rotating asteroid.
NASA's first asteroid sample-return mission — it orbited the carbonaceous near-Earth asteroid Bennu, mapped it in detail, and used a touch-and-go manoeuvre to grab a large sample, returning 121.6 grams to Earth in 2023. The spacecraft continued on as OSIRIS-APEX to study the asteroid Apophis.
A NASA Discovery mission to the metal-rich asteroid 16 Psyche — possibly the exposed core of a shattered protoplanet. Using solar-electric propulsion, it will orbit and map a world made largely of metal, a type never before visited.
ESA's follow-up to DART and the European half of the AIDA collaboration — it is cruising to the Didymos–Dimorphos system to survey the crater DART left and measure Dimorphos's mass, turning the DART experiment into a well-characterised deflection.
JAXA's planned mission to the moons of Mars — it will study Phobos and Deimos and return a sample of Phobos to Earth, testing whether the Martian moons are captured asteroids or debris from a giant impact.
ESA's Asteroid Impact Mission — the original European orbiter half of the AIDA collaboration, meant to observe the DART impact in real time. It was not funded in 2016, but its science was largely revived and reshaped as the Hera mission.
Facts on this topic will be cited from these primary and reference sources.
Mission data, planetary science, space telescopes, and public-domain imagery.
Most NASA-produced imagery is in the public domain; individual items are checked for usage terms before publication.
European missions, observatories, and space science imagery.